Mercurial > repos > xuebing > sharplabtool
view tools/vcf_tools/intersect.py @ 0:9071e359b9a3
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author | xuebing |
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date | Fri, 09 Mar 2012 19:37:19 -0500 |
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#!/usr/bin/python import os.path import sys import optparse import bedClass from bedClass import * import vcfClass from vcfClass import * import tools from tools import * if __name__ == "__main__": main() # Intersect two vcf files. It is assumed that the two files are # sorted by genomic coordinates and the reference sequences are # in the same order. def intersectVcf(v1, v2, priority, outputFile): success1 = v1.getRecord() success2 = v2.getRecord() currentReferenceSequence = v1.referenceSequence # As soon as the end of either file is reached, there can be no # more intersecting SNPs, so terminate. while success1 and success2: if v1.referenceSequence == v2.referenceSequence and v1.referenceSequence == currentReferenceSequence: if v1.position == v2.position: writeVcfRecord(priority, v1, v2, outputFile) success1 = v1.getRecord() success2 = v2.getRecord() elif v2.position > v1.position: success1 = v1.parseVcf(v2.referenceSequence, v2.position, False, None) elif v1.position > v2.position: success2 = v2.parseVcf(v1.referenceSequence, v1.position, False, None) else: if v1.referenceSequence == currentReferenceSequence: success1 = v1.parseVcf(v2.referenceSequence, v2.position, False, None) elif v2.referenceSequence == currentReferenceSequence: success2 = v2.parseVcf(v1.referenceSequence, v1.position, False, None) # If the last record for a reference sequence is the same for both vcf # files, they will both have referenceSequences different from the # current reference sequence. Change the reference sequence to reflect # this and proceed. else: if v1.referenceSequence != v2.referenceSequence: print >> sys.stderr, "ERROR: Reference sequences for both files are unexpectedly different." print >> sys.stderr, "Check that both files contain records for the following reference sequences:" print >> sys.stderr, "\t", v1.referenceSequence, " and ", v2.referenceSequence exit(1) currentReferenceSequence = v1.referenceSequence # Intersect a vcf file and a bed file. It is assumed that the # two files are sorted by genomic coordinates and the reference # sequences are in the same order. def intersectVcfBed(v, b, outputFile): successb = b.getRecord() successv = v.getRecord() currentReferenceSequence = v.referenceSequence # As soon as the end of the first file is reached, there are no # more intersections and the program can terminate. while successv: if v.referenceSequence == b.referenceSequence: if v.position < b.start: successv = v.parseVcf(b.referenceSequence, b.start, False, None) elif v.position > b.end: successb = b.parseBed(v.referenceSequence, v.position) else: outputFile.write(v.record) successv = v.getRecord() else: if v.referenceSequence == currentReferenceSequence: successv = v.parseVcf(b.referenceSequence, b.start, False, None) if b.referenceSequence == currentReferenceSequence: successb = b.parseBed(v.referenceSequence, v.position) currentReferenceSequence = v.referenceSequence def main(): # Parse the command line options usage = "Usage: vcfPytools.py intersect [options]" parser = optparse.OptionParser(usage = usage) parser.add_option("-i", "--in", action="append", type="string", dest="vcfFiles", help="input vcf files") parser.add_option("-b", "--bed", action="store", type="string", dest="bedFile", help="input bed vcf file") parser.add_option("-o", "--out", action="store", type="string", dest="output", help="output vcf file") parser.add_option("-f", "--priority-file", action="store", type="string", dest="priorityFile", help="output records from this vcf file") (options, args) = parser.parse_args() # Check that a single vcf file is given. if options.vcfFiles == None: parser.print_help() print >> sys.stderr, "\nAt least one vcf file (--in, -i) is required for performing intersection." exit(1) elif len(options.vcfFiles) > 2: parser.print_help() print >> sys.stderr, "\nAt most, two vcf files (--in, -i) can be submitted for performing intersection." exit(1) elif len(options.vcfFiles) == 1 and not options.bedFile: parser.print_help() print >> sys.stderr, "\nIf only one vcf file (--in, -i) is specified, a bed file is also required for performing intersection." exit(1) # Set the output file to stdout if no output file was specified. outputFile, writeOut = setOutput(options.output) # tools.py # If intersecting with a bed file, call the bed intersection routine. if options.bedFile: v = vcf() # Define vcf object. b = bed() # Define bed object. # Open the files. v.openVcf(options.vcfFiles[0]) b.openBed(options.bedFile) # Read in the header information. v.parseHeader(options.vcfFiles[0], writeOut) taskDescriptor = "##vcfPytools=intersect " + options.vcfFiles[0] + ", " + options.bedFile writeHeader(outputFile, v, False, taskDescriptor) # tools.py # Intersect the vcf file with the bed file. intersectVcfBed(v, b, outputFile) # Check that the input files had the same list of reference sequences. # If not, it is possible that there were some problems. checkReferenceSequenceLists(v.referenceSequenceList, b.referenceSequenceList) # tools.py # Close the files. v.closeVcf(options.vcfFiles[0]) b.closeBed(options.bedFile) else: priority = setVcfPriority(options.priorityFile, options.vcfFiles) v1 = vcf() # Define vcf object. v2 = vcf() # Define vcf object. # Open the vcf files. v1.openVcf(options.vcfFiles[0]) v2.openVcf(options.vcfFiles[1]) # Read in the header information. v1.parseHeader(options.vcfFiles[0], writeOut) v2.parseHeader(options.vcfFiles[1], writeOut) if priority == 3: v3 = vcf() # Generate a new vcf object that will contain the header information of the new file. mergeHeaders(v1, v2, v3) # tools.py v1.processInfo = True v2.processInfo = True else: checkDataSets(v1, v2) #print v1.samplesList #print v2.samplesList # Check that the header for the two files contain the same samples. if v1.samplesList != v2.samplesList: print >> sys.stderr, "vcf files contain different samples (or sample order)." exit(1) else: taskDescriptor = "##vcfPytools=intersect " + v1.filename + ", " + v2.filename if priority == 3: writeHeader(outputFile, v3, False, taskDescriptor) elif (priority == 2 and v2.hasHeader) or not v1.hasHeader: writeHeader(outputFile, v2, False, taskDescriptor) # tools.py else: writeHeader(outputFile, v1, False, taskDescriptor) # tools.py # Intersect the two vcf files. intersectVcf(v1, v2, priority, outputFile) # Check that the input files had the same list of reference sequences. # If not, it is possible that there were some problems. checkReferenceSequenceLists(v1.referenceSequenceList, v2.referenceSequenceList) # tools.py # Close the vcf files. v1.closeVcf(options.vcfFiles[0]) v2.closeVcf(options.vcfFiles[1]) # End the program. return 0